所属学科: 声学,土木工程,水利工程 开始日期: 2014-08-27 结束日期: 2014-08-29 所在国家: 法国 所在城市: 法国 具体地点: Strasbourg, France 主办单位: Ubertone and ICUBE laboratory 摘要截稿日期: 2013-11-15 全文截稿日期: 2014-03-01 联系电话: +33 (0) 367 100 883 会议网站: http://www.ubertone.com/index.php/en/isud-2014-conference
会议背景介绍: On behalf of the organising committee, I am pleased to invite you to come to ISUD-9 to be held in Strasbourg.
The ultrasound Doppler method has been successfully established for fluid flow measurements in many scientific and industrial applications. Recent trends are the analysis of spatio-temporal and multidimensional flow structures, large-scale measurement in environmental hydraulics, studies of industrial flows such as liquid metal or multi-phase oil flows, and the development of advanced methods for in-line process-control monitoring of rheological properties in flowing food suspensions.
Every ISUD is an opportunity to bring together the researchers from all over the world and to enable the exchange of latest knowledge on the application of the ultrasound Doppler technique. Likewise, there is the chance for researchers, manufacturers and end-users to exchange ideas. Exhibitors and sponsors have the opportunity to promote existing and new products and services. For everyone, it is an opportunity to visit Strasbourg, capital of Europe, and to spend some time enjoying new sights and experiences.
征文范围及要求: We invite you to submit abstracts to :
Fundamental Flows : Fundamental flow configurations such as jet, wake, mixing layer, boundary layer, natural convection, liquid metal flow, rotating flow etc. Applied Flows : Flow configurations appearing in industrial devices and facilities such as pipe flow, rotating disc, flows in containers, transient flow, rheological flow, multiphase flow etc. Environmental Flows : Flows in nature and man-made structures such as rivers, lakes, channels, around a bridge, harbor, bay etc. Flow Metering : Applications to metering such as flow meter, calibration facilities and metering standards etc. Flow Mapping Signal Processing and Methodology : New algorithms, new concepts, data display, data analysis etc. Acoustic Characterization : Acoustic properties such as sound speed, attenuation characteristics, sound optics in multiphase flow, acoustic turbidity and particle size distribution etc. Ultrasound Spectroscopy and Microscopy
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